Indian Mathematical Formulas for Transportation

Description: This quiz is designed to test your knowledge of Indian mathematical formulas used in transportation.
Number of Questions: 15
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Tags: indian mathematics transportation formulas
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The formula for calculating the average speed of a vehicle is:

  1. Speed = Distance / Time

  2. Speed = Time / Distance

  3. Speed = Distance * Time

  4. Speed = Time - Distance


Correct Option: A
Explanation:

The average speed of a vehicle is calculated by dividing the total distance traveled by the total time taken to travel that distance.

The formula for calculating the acceleration of a vehicle is:

  1. Acceleration = (Final Velocity - Initial Velocity) / Time

  2. Acceleration = (Final Velocity + Initial Velocity) / Time

  3. Acceleration = (Final Velocity * Initial Velocity) / Time

  4. Acceleration = (Final Velocity - Initial Velocity) * Time


Correct Option: A
Explanation:

The acceleration of a vehicle is calculated by dividing the change in velocity by the time taken for that change to occur.

The formula for calculating the force required to move a vehicle is:

  1. Force = Mass * Acceleration

  2. Force = Mass / Acceleration

  3. Force = Acceleration / Mass

  4. Force = Mass * Velocity


Correct Option: A
Explanation:

The force required to move a vehicle is calculated by multiplying the mass of the vehicle by its acceleration.

The formula for calculating the work done by a vehicle is:

  1. Work = Force * Distance

  2. Work = Force / Distance

  3. Work = Force + Distance

  4. Work = Force - Distance


Correct Option: A
Explanation:

The work done by a vehicle is calculated by multiplying the force applied to the vehicle by the distance over which the force is applied.

The formula for calculating the power of a vehicle is:

  1. Power = Work / Time

  2. Power = Work * Time

  3. Power = Work + Time

  4. Power = Work - Time


Correct Option: A
Explanation:

The power of a vehicle is calculated by dividing the work done by the vehicle by the time taken to do that work.

The formula for calculating the efficiency of a vehicle is:

  1. Efficiency = (Output Power / Input Power) * 100

  2. Efficiency = (Input Power / Output Power) * 100

  3. Efficiency = (Output Power + Input Power) * 100

  4. Efficiency = (Input Power - Output Power) * 100


Correct Option: A
Explanation:

The efficiency of a vehicle is calculated by dividing the output power of the vehicle by the input power and multiplying the result by 100.

The formula for calculating the fuel consumption of a vehicle is:

  1. Fuel Consumption = Distance / Volume of Fuel

  2. Fuel Consumption = Volume of Fuel / Distance

  3. Fuel Consumption = Distance + Volume of Fuel

  4. Fuel Consumption = Volume of Fuel - Distance


Correct Option: A
Explanation:

The fuel consumption of a vehicle is calculated by dividing the distance traveled by the vehicle by the volume of fuel consumed.

The formula for calculating the range of a vehicle is:

  1. Range = Volume of Fuel * Fuel Consumption

  2. Range = Volume of Fuel / Fuel Consumption

  3. Range = Volume of Fuel + Fuel Consumption

  4. Range = Volume of Fuel - Fuel Consumption


Correct Option: A
Explanation:

The range of a vehicle is calculated by multiplying the volume of fuel in the vehicle's tank by the fuel consumption of the vehicle.

The formula for calculating the stopping distance of a vehicle is:

  1. Stopping Distance = (Velocity^2) / (2 * Acceleration)

  2. Stopping Distance = (Velocity^2) * (2 * Acceleration)

  3. Stopping Distance = (Velocity + Acceleration) / 2

  4. Stopping Distance = (Velocity - Acceleration) / 2


Correct Option: A
Explanation:

The stopping distance of a vehicle is calculated by dividing the square of the vehicle's velocity by twice the acceleration of the vehicle.

The formula for calculating the reaction time of a driver is:

  1. Reaction Time = Distance / Velocity

  2. Reaction Time = Velocity / Distance

  3. Reaction Time = Distance + Velocity

  4. Reaction Time = Distance - Velocity


Correct Option: A
Explanation:

The reaction time of a driver is calculated by dividing the distance between the driver and an object by the velocity of the object.

The formula for calculating the braking distance of a vehicle is:

  1. Braking Distance = (Velocity^2) / (2 * Coefficient of Friction * Gravity)

  2. Braking Distance = (Velocity^2) * (2 * Coefficient of Friction * Gravity)

  3. Braking Distance = (Velocity + Coefficient of Friction * Gravity) / 2

  4. Braking Distance = (Velocity - Coefficient of Friction * Gravity) / 2


Correct Option: A
Explanation:

The braking distance of a vehicle is calculated by dividing the square of the vehicle's velocity by twice the product of the coefficient of friction between the vehicle's tires and the road and the acceleration due to gravity.

The formula for calculating the centripetal force required to keep a vehicle moving in a circular path is:

  1. Centripetal Force = (Mass * Velocity^2) / Radius

  2. Centripetal Force = (Mass * Velocity) / Radius

  3. Centripetal Force = (Mass + Velocity) / Radius

  4. Centripetal Force = (Mass - Velocity) / Radius


Correct Option: A
Explanation:

The centripetal force required to keep a vehicle moving in a circular path is calculated by multiplying the mass of the vehicle by the square of its velocity and dividing the result by the radius of the circular path.

The formula for calculating the skidding distance of a vehicle is:

  1. Skidding Distance = (Velocity^2) / (Coefficient of Friction * Gravity)

  2. Skidding Distance = (Velocity^2) * (Coefficient of Friction * Gravity)

  3. Skidding Distance = (Velocity + Coefficient of Friction * Gravity) / 2

  4. Skidding Distance = (Velocity - Coefficient of Friction * Gravity) / 2


Correct Option: A
Explanation:

The skidding distance of a vehicle is calculated by dividing the square of the vehicle's velocity by the product of the coefficient of friction between the vehicle's tires and the road and the acceleration due to gravity.

The formula for calculating the rolling resistance of a vehicle is:

  1. Rolling Resistance = (Coefficient of Rolling Resistance * Mass * Gravity)

  2. Rolling Resistance = (Coefficient of Rolling Resistance * Mass) / Gravity

  3. Rolling Resistance = (Coefficient of Rolling Resistance + Mass) * Gravity

  4. Rolling Resistance = (Coefficient of Rolling Resistance - Mass) * Gravity


Correct Option: A
Explanation:

The rolling resistance of a vehicle is calculated by multiplying the coefficient of rolling resistance between the vehicle's tires and the road by the mass of the vehicle and the acceleration due to gravity.

The formula for calculating the air resistance of a vehicle is:

  1. Air Resistance = (1/2 * Air Density * Velocity^2 * Frontal Area * Drag Coefficient)

  2. Air Resistance = (1/2 * Air Density * Velocity) / (Frontal Area * Drag Coefficient)

  3. Air Resistance = (1/2 * Air Density + Velocity) * (Frontal Area * Drag Coefficient)

  4. Air Resistance = (1/2 * Air Density - Velocity) * (Frontal Area * Drag Coefficient)


Correct Option: A
Explanation:

The air resistance of a vehicle is calculated by multiplying one-half the air density, the square of the vehicle's velocity, the frontal area of the vehicle, and the drag coefficient of the vehicle.

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